Den 03.12.2024 22:20, skrev Andrew Randrianasulu:
вт, 3 дек. 2024 г., 23:59 Terje J. Hanssen <[email protected]>:
From a previous thread: Re: [Cin] another set of test profiles
Den 18.10.2024 02:08, skrev Andrew Randrianasulu:
чт, 17 окт. 2024 г., 15:06 Terje J. Hanssen <[email protected]>:
Den 17.10.2024 13:51, skrev Andrew Randrianasulu:
чт, 17 окт. 2024 г., 13:40 Terje J. Hanssen <[email protected]>:
Den 14.10.2024 00:38, skrev Andrew Randrianasulu:
пн, 14 окт. 2024 г., 01:36 Phyllis Smith <[email protected]>:
Andrew, so it seems prudent to check into GIT, the av1_vaapi.mp4 render format (after successfully tested of course); but what about the QSV encoders?
wait for Terje's testing OR try to build oneVPL-cpu (it sort of circles back to different branch of ffmpeg, so ffmpeg will think it uses qsv but it in fact will use another ffmpeg .... well, in theory! it does not work for me on 32-bit!)
I wonder if Hw accellerated encoding support via Vaapi and QSV is to be embedded in future Cingg Appimage and/or packages if possible? What about a list of supported dGPUs/iGPUs?
Problem is - QSV/vaapi basically search for driver component and this one might be in different location on different distros, and interface between two also not set in stone.
For appimage you can just unpack them and remove libva.so so on startup cingg will link to system's libva.
QSV as we learned is another layer with their own runtime path for yet another set of driver components. So, while building libvpl itself is relatively easily making sure it finds its drivers is not easy (at least for me).
speaking about GPU list I think it will be fairly short, you,Phyllis and Andrea probably only ones who use it and report back. Stephan noticed some troubles and reverted back to software. I can test nvdec/nvenc on livecd but this is not my everyday setup (Nvidia proprietary drivers enforce 64-bit system).
But well, feel free to post short summary of that works on your GPUs in cingg as another thread, hopefully others will chime in!
If we get available a packaged Cingg test build (rpm/Leap for me), it would be more useful to do this test. Then I have available three gen. Intel, legacy Skylake/Kabylake iGPUs and current DG2/Arc GPU. I also have/had a Nvidia GPU on Skylake, but it looks like it past away.
I think you can build rpm yourself, but for this we need to update spec file, so it will point at new source and add openvpl as requirements.
In meantime you can just make your own appimage from just build cingg-with-system-ffmpeg, so it hopefully will not be lost after few system updates.
Andrew, I don't know how busy you are currently with other tasks, but i case you have time, I would be interested to fulfill this rpm and (possibly Appimage) exercise? That is from my current build with third-party (internal) ffmpeg7.0.
for rpm you need to edit blds/cinelerra.spec at the very top there is date, I think latest tar version is
https://cinelerra-gg.org/download/src/cin_5.1.20241031-src.tgz
so replace 2020 something with 20241031
but then it need to be patched up, and I do not have tested procedure for doing this. Probably rpm should wait until new tagged release .... you can search for rpmbuild command on your system and read its manpage/help and may be test run it on some other (faster to rebuild) .spec file in meantime
Appimage should be simpler from existing source directory
just run
bld_appimage.sh
but be sure to get additional file and put it where it belong as described in comment: =====
# Get the appropriate appimagetool from https://github.com/AppImage/AppImageKit/releases # and put it in your path. Only install the version for your platform # and mark it executable. The file name must start with "appimagetool".
====
probably /usr/local/bin will be simplest place to put it as root?
/Cin # sh ./bld_appimage.sh .....snip -- Copying files into AppDir -- Copying file image/cin.desktop to AppDir/usr/share/applications/cin.desktop Copying file image/cin.svg to AppDir/usr/share/icons/hicolor/scalable/apps/cin.svg -- Deploying files into AppDir root directory -- Deploying files to AppDir root using desktop file: AppDir/usr/share/applications/cin.desktop Deploying desktop file to AppDir root: AppDir/usr/share/applications/cin.desktop Creating symlink for file AppDir/usr/share/applications/cin.desktop in/as AppDir Deploying icon to AppDir root: AppDir/usr/share/icons/hicolor/scalable/apps/cin.svg Creating symlink for file AppDir/usr/share/icons/hicolor/scalable/apps/cin.svg in/as AppDir Deploying AppRun symlink for executable in AppDir root: AppDir/usr/bin/cin Creating symlink for file AppDir/usr/bin/cin in/as AppDir/AppRun Found appimagetool: /usr/local/bin/appimagetool-x86_64.AppImage Running command: /usr/local/bin/appimagetool-x86_64.AppImage "appimagetool" "AppDir" " Thanks, I think I got AppImage(?) built and it seemingly runs OK. That is when I found the CinGG executable file, because I expected a file somewhere with a name "CinGG*.AppImage" /Cin # file -sh AppDir/* AppDir/AppRun: symbolic link to usr/bin/cin AppDir/cin.desktop: symbolic link to usr/share/applications/cin.desktop AppDir/cin.svg: symbolic link to usr/share/icons/hicolor/scalable/apps/cin.svg AppDir/usr: directory Cin # du -sh AppDir 216M AppDir /Cin # du -sh AppDir/*/* 198M AppDir/usr/bin 19M AppDir/usr/lib 100K AppDir/usr/share /Cin # AppDir/usr/bin/cin Cinelerra Infinity - built: Nov 20 2024 22:06:05 ....... BC_DisplayInfo::gl_fb_config failed build plugin index for: /home/cinelerra/cinelerra-5.1/AppDir/usr/bin/plugins PluginFFilter::new_ffilter(overlay_qsv) err: Input/output error PluginFFilter::new_ffilter(hstack_qsv) err: Operation not permitted PluginFFilter::new_ffilter(vstack_qsv) err: Operation not permitted PluginFFilter::new_ffilter(xstack_qsv) err: Operation not permitted build lv2 index for: $CIN_PATH/lv2 build ladspa plugin index for: /home/cinelerra/cinelerra-5.1/AppDir/usr/bin/ladspa Loaded hdv09_04.m2t (tff interlaced) Tested rendering using preset hevc_qsv_10b420 which worked fine libva info: VA-API version 1.22.0 libva info: Trying to open /usr/lib64/dri/iHD_drv_video.so libva info: Found init function __vaDriverInit_1_22 libva info: va_openDriver() returns 0 libva info: VA-API version 1.22.0 libva info: Trying to open /usr/lib64/dri/iHD_drv_video.so libva info: Found init function __vaDriverInit_1_22 libva info: va_openDriver() returns 0 Render::render_single: Session finished. ** rendered 5972 frames in 19.320 secs, 309.110 fps --------------------------- So some questions when comparing the above AppDir result with the pre-build Appimage file I download to and run from du -sh ~/Applications/Cin* 171M CinGG-20241031-x86_64.AppImage ./CinGG-20241031-x86_64.AppImage I notice the prebuild has no symlink as in the above AppDir My own built appimage has not startup errors: (AppImageLauncher:127697): GdkPixbuf-CRITICAL **: 23:56:28.831: gdk_pixbuf_get_rowstride: assertion 'GDK_IS_PIXBUF (pixbuf)' failed I wonder the larger total space 216M vs 171M is due to oneVPL and maybe some other additional libs ? How to possibly build an equivalent single AppImage file directly?